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摩擦与滚阻对被动行走器步态影响的研究
引用本文:郑鹏,王琪,吕敬,郑旭东. 摩擦与滚阻对被动行走器步态影响的研究[J]. 力学学报, 2020, 52(1): 162-170. DOI: 10.6052/0459-1879-19-216
作者姓名:郑鹏  王琪  吕敬  郑旭东
作者单位:北京航空航天大学航空科学与工程学院,北京 100083
基金项目:1) 国家自然科学基金资助项目(11772021)
摘    要:本文研究了圆弧足被动行走器支撑足与地面间的摩擦系数和滚阻系数对被动行走器步态的影响.首先分别利用扩展的赫兹接触力模型和LuGre摩擦模型描述了支撑足与地面接触点处的法向支撑力和切向摩擦力,并考虑了行走过程中支撑足所受的滚动摩阻;其次利用第二类Lagrange方程推导出了该系统的动力学方程,并通过与已有成果的对比确定了合适的LuGre摩擦模型参数;最后仿真分析了摩擦系数和滚阻系数对被动行走器步态的影响.研究发现:摩擦系数的改变虽然对被动行走器行走的平均速度、步幅,以及支撑足接触点处的最大法向接触力的影响较小,但摩擦系数的减小会改变其行走步态类型,如发生倍周期分岔甚至混沌现象;然而,滚阻系数的改变会对行走器行走的平均速度、步幅,以及支撑足接触点处的最大法向接触力的影响较大,尚未发现滚阻系数的改变会引起其行走步态的变化.

关 键 词:被动行走器  LuGre摩擦模型  滚动摩阻  行走步态  倍周期分岔
收稿时间:2019-08-09

STUDY ON THE INFLUENCE OF FRICTION AND ROLLING RESISTANCE ON THE GAIT OF PASSIVE DYNAMIC WALKER 1)
Zheng Peng,Wang Qi,Lü Jing,Zheng Xudong. STUDY ON THE INFLUENCE OF FRICTION AND ROLLING RESISTANCE ON THE GAIT OF PASSIVE DYNAMIC WALKER 1)[J]. chinese journal of theoretical and applied mechanics, 2020, 52(1): 162-170. DOI: 10.6052/0459-1879-19-216
Authors:Zheng Peng  Wang Qi  Lü Jing  Zheng Xudong
Affiliation:School of Aeronautical Science and Engineering, Beihang University,Beijing 100083,China
Abstract:In this paper, the influences of friction coefficient and rolling resistance coefficient on the gait of a passive dynamic walker with round feet are studied. Firstly, the normal forces and frictional forces acting on the feet of the passive dynamic walker are described based on a modified Hertz contact model and LuGre friction model, and the rolling friction resistance of the supporting foot during walking was also considered. Secondly, the dynamic equations of the passive dynamic walker are obtained by using Lagrange's equations of the second kind, and the appropriate parameters of LuGre friction model are selected by comparing with the previous studies. Finally, the influence of friction coefficient and rolling resistance coefficient on the gait of passive dynamic walker are simulated and analyzed. It is found that although the change of friction coefficient has little effect on the average speed, stride and the maximum normal contact force at the contact point of the supporting foot, the reduction of friction coefficient will change the gait types, such as periodic doubling motion or chaotic motion. However, the change of the rolling resistance coefficient will lead to a great difference on the average speed, stride and the maximum normal contact force at the contact point of the supporting foot, but it has not been found that the change of rolling resistance coefficient will cause the change of the walker's gait types.
Keywords:passive dynamic walker  LuGre friction model  rolling resistance  walking gait  period doubling bifurcation  
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